Chapter 14: The Changing Climate Detecting Climate Change Natural Causes of Climate Change Anthropogenic Causes of Climate Change Possible Consequences of Global Warming
Climate Change? -Paleo studies show climate varies on every temporal scale -Human activities are changing climate -Recent data indicates climate is becoming more variable -modern record is ~200 years -satellites 1980s Measuring Climate Change -Seafloor sediments -Oxygen isotope ratios -Old Soils -Tree Rings: Dendrochronology -Historical documents
Sea-Floor Sediments Organisms at the surface Balance between ocean surface waters and the atmosphere As climate changes so does the composition of the surface organisms Recorded in sediments as the organisms die Rates of Sedimentation 0.5 1.0 cm/ 1000 years Average Accumulation 500 600 m Thickness depends on age Oldest sea floor is 200 million years
Calcareous (CaCO 3 ) Siliceous (SiO 2 )
Oxygen Isotope Analysis from Ice Cores Isotope = One of two or more atoms having the same atomic number (number of protons) but different mass numbers (protons + neutrons) 18 O 16 O ratios Water forms with either 16 O evaporates easier
Oxygen Isotope Analysis from Ice Cores Precipitation & glacial ice are enriched in 16 O Oceans are enriched in 18 O Ocean 18 O ice ages 16 O increases warmer periods cocolithophorids, pteropods, foraminifera = record ratios in their shells (CaCO 3 )
Oxygen Isotope Analysis Temperature Variations 18 O more easily evaporated during warm periods Ice cores record the warm periods Pockets of air within the crystal lattice yield gasses (CO 2 and CH 4 ), pollen, ash, pollutants Link between CO 2 and CH 4 concentrations and temperature changes
Natural Causes of Climate Change -Plate Tectonics -Volcanic Activity -Variations in the Earth s orbit -Solar variability * All theories can explain some portion of climate variability, but no one theory can explain all of the observed changes.
Plate Tectonics -Distribution of Land -Growth of Ice Sheets -Change in ocean circulation Carbon-Silicate Weathering Cycle (O millions of years)
Volcanic Eruptions Gasses, ash Ejected into stratosphere Sulfur dioxide: remains in suspension reflects solar radiation reduce surface temperatures Mount Etna, Sicily
Orbital Variations: Milankovitch Cycles -eccentricity -obliquity -precession variation in the shape of Earth s orbit axial tilt wobble Correlated with climate predicted by deep sea sediments Quaternary ice ages Predicts a cooling period Needs land mass near the poles to support ice sheets No human influence
Solar Variability: solar output varies through time, correlated with climate changes in Europe and North America Sunspots = magnetic storms 11 and 22 year cycles
Human Impact on Global Climate Change Increase in CO 2 and other Greenhouse Gasses Human generated aerosols Modification of the land surface
CO 2 Trace Gasses and Global Climate Change
Industrial Sources of Carbon Dioxide Burning of fossil fuels Deforestation (38 m.a/y) 45 50 % CO 2 remains in the atmosphere
IPCC: Intergovernmental Panel on Climate Change (5 th Assessment, 2013) -established by the United Nations Environmental Program -assess the state of knowledge of human-induced climate change *surface temperatures increased 0.6 o C during the 20 th century *greatest per century temperature increase in the last 1000 yrs *most of the warming over the last 50 yrs is due to human activity *Snow cover and ice extent have decreased *Eustatic sea level has risen and ocean heat content has increased http://www.ipcc.ch/report/ar5/wg1/
Temperature Variations since Industrial Revolution *surface temperatures increased 0.6 o C during the 20 th century *Annual temperatures compared to the (1961-1990) average
* greatest per century temperature increase in the last 1000 yrs * tree rings, ice cores, corals, historical records
Role of Trace Gasses -Methane (CH 4 ) -Nitrous Oxide (N 2 O) -Chloroflorocarbons (CFCs) Nitrous Oxide enters atmosphere in agricultural regions residence time 150 yrs projected to have half the green house effect of methane
Methane 20-30% more effective at absorbing Infrared Radiation than CO 2 anaerobic bacteria in wet places (swamps, bogs, wetlands) rice paddies fields, animal guts (cattle, sheep) byproduct of oil, coal, and natural gas formation atmospheric concentration has doubled since 1800 s http://www.ornl.gov/info/reporter/no16/methane.htm
Uncertainty in Climate Change Climate-Feedback Mechanisms Positive: enhance change in the current direction Negative: stabilize the system, reduce change Ex. Warmer Surface Temperatures increase evaporation water vapor is a better absorber of outgoing radiation Ex. Sea Ice/ Glaciers Melt albedo is reduced reflective surface replaced with dark soil
Uncertainty in Climate Change Aerosols tiny liquid and solid particles suspended in atmosphere volcanoes, dust storms = fossil fuel, vegetation burning sulfur dioxide: results in acid precipitation Ex. Increased Aerosols reflect solar energy condensation nuclei make clouds brighter, increase albedo *short lifespan (days-weeks) compared to greenhouse gasses (decades), concentrated where emitted